KR920017070A - High Frequency Adaptive De-emphasis and Re-emphasis in Video Signals Using Recorded Control Signals - Google Patents

Abstract

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Description

High Frequency Adaptive De-emphasis and Re-emphasis in Video Signals Using Recorded Control Signals

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1 is a block diagram of an area of a video signal recording / reproducing system according to the principles of the present invention, and FIG. 2 is a block of an adaptive de-emphasis and control signal generator that can be used in the video signal recording / reproducing system shown in FIG. A diagram, FIG. 3, is a series of related waveform diagrams useful for understanding the operation of the adaptive de-emphasis circuit shown in FIG.

Claims (16)

Means for generating a control signal indicative of the level of a predetermined high frequency region of said luminance signal, in said predetermined system for recording a predetermined luminance signal on a desired recording medium, said control Means for reducing the level of the high frequency region in response to a signal, and means for combining the reduced level signal with the control signal and for recording the combined signal onto the medium. 2. The control according to claim 1, wherein said generating means is adapted to separate a predetermined high frequency region from said luminance signal, and in response to said high frequency region if said level of said high frequency region exceeds a predetermined threshold level. And recording means for generating a signal. The recording system as claimed in claim 2, wherein the separating means includes a high pass filter. 3. The control circuit according to claim 2, wherein said control generating means connects said predetermined signal to said rectifier in order to respond only to a predetermined rectifier in response to said high frequency region, to only signals exceeding said threshold level. And a predetermined low pass filter coupled to the core. 2. The apparatus according to claim 1, wherein said level reducing means comprises means for separating a predetermined high frequency region of said luminance signal from a predetermined frequency region, and by said predetermined scaling factor associated with said control signal. Means for skating an area, and means for combining the scaled high frequency area and the low frequency area to form the reduced level luminance signal. 6. The apparatus of claim 5, wherein the separating means comprises: a predetermined high pass filter responsive to the luminance signal to generate the high frequency region, and a predetermined portion for subtracting the high frequency region for generating the low frequency region from the luminance signal. And a subtractor of the recording system. 6. The recording system as claimed in claim 5, wherein the skating means has a predetermined multiplier for multiplying the high frequency region by the skating element. 8. The recording system as claimed in claim 7, wherein the skating means also includes a predetermined logic circuit responsive to the control signal to generate the skating element. The control signal generator of claim 8, wherein the control signal generator has a predetermined value that varies from 0 when the high frequency region is relatively small, to ½ when the level of the high frequency region is relatively large, and a median value at an intermediate level of the high frequency region. Generates a predetermined signal K having a predetermined value, and the logic circuit has a value varied from 1 when the value of the control signal K is 0, to 1 when the value of the control signal is ½, and the control signal K Generating a predetermined scaling element (1-K) having intermediate values in the intermediate values of < RTI ID = 0.0 > A predetermined system for reproducing a predetermined luminance signal from a predetermined medium including a level luminance code and a control signal recorded before the predetermined reduction and combining, wherein the combined signal is reproduced from the medium and the control signal is reduced. Means for separating from said level luminance signal, and means for increasing the level of a predetermined high frequency region of said reduced level luminance signal in response to said control signal to generate said luminance signal. system. 11. The apparatus of claim 10, wherein the means for boosting means separates the reduced level luminance signal from a predetermined high frequency region from a predetermined frequency region, the high frequency by means of a predetermined skating element associated with the control signal. Means for skating a region, and means for combining the scaled high frequency region and the low frequency region to form the luminance signal. 12. The high frequency filter of claim 11, wherein the separating means further comprises: a predetermined high pass filter responsive to the reduced level luminance signal for forming the high frequency region, and the high band from the reduced level luminance signal to form the low frequency region. And a predetermined subtractor for subtracting the passing filter. 12. The reproduction system as set forth in claim 11, wherein said skating means has a predetermined multiplier for multiplying said high frequency region by said skating element. 14. A reproducing system as set forth in claim 13, wherein said skating means also comprises a predetermined circuit in response to said control signal for generating said skating element. 15. The radio frequency increasing means according to claim 14, wherein the regeneration and separation means increases the level of the high frequency region by a predetermined maximum amount from zero when the level of the high frequency region is increased by a predetermined minimum amount. When a predetermined value changed to ½, and when the level of the high frequency region is increased by an intermediate amount, a predetermined control signal K having an intermediate value is generated, and the control signal K of the logic circuit is generated. Value is 0, from 1, and when the control signal K is ½, the predetermined skating element 1+ has two varied predetermined values and has intermediate values at the median of the control signal K. 2K). Means for generating a predetermined control signal indicating a level of a predetermined high frequency region which is the luminance signal, in a predetermined system for continuously recording a predetermined luminance signal and reproducing the luminance signal from a predetermined medium, the control Means for reducing the level of the high frequency region in response to a signal, means for combining the reduced level luminance signal with the control signal and for recording the combined signal on the medium, the combined signal from the medium Means for separating and separating the control signal from the reduced level signal, and means for increasing the level of a predetermined high frequency region that is the reduced level luminance signal in response to the control signal to generate the luminance signal. Said system comprising: a. ※ Note: The disclosure is based on the initial application.